Efficacy of NS5A Inhibitors Against Hepatitis C Virus Genotypes 1–7 and Escape Variants

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Efficacy of NS5A Inhibitors Against Hepatitis C Virus Genotypes 1–7 and Escape Variants. / Gottwein, Judith M.; Pham, Long V.; Mikkelsen, Lotte S.; Ghanem, Lubna; Ramirez, Santseharay; Scheel, Troels K.H.; Carlsen, Thomas H.R.; Bukh, Jens.

I: Gastroenterology, Bind 154, Nr. 5, 04.2018, s. 1435-1448.

Publikation: Bidrag til tidsskriftTidsskriftartikelForskningfagfællebedømt

Harvard

Gottwein, JM, Pham, LV, Mikkelsen, LS, Ghanem, L, Ramirez, S, Scheel, TKH, Carlsen, THR & Bukh, J 2018, 'Efficacy of NS5A Inhibitors Against Hepatitis C Virus Genotypes 1–7 and Escape Variants', Gastroenterology, bind 154, nr. 5, s. 1435-1448. https://doi.org/10.1053/j.gastro.2017.12.015

APA

Gottwein, J. M., Pham, L. V., Mikkelsen, L. S., Ghanem, L., Ramirez, S., Scheel, T. K. H., Carlsen, T. H. R., & Bukh, J. (2018). Efficacy of NS5A Inhibitors Against Hepatitis C Virus Genotypes 1–7 and Escape Variants. Gastroenterology, 154(5), 1435-1448. https://doi.org/10.1053/j.gastro.2017.12.015

Vancouver

Gottwein JM, Pham LV, Mikkelsen LS, Ghanem L, Ramirez S, Scheel TKH o.a. Efficacy of NS5A Inhibitors Against Hepatitis C Virus Genotypes 1–7 and Escape Variants. Gastroenterology. 2018 apr.;154(5):1435-1448. https://doi.org/10.1053/j.gastro.2017.12.015

Author

Gottwein, Judith M. ; Pham, Long V. ; Mikkelsen, Lotte S. ; Ghanem, Lubna ; Ramirez, Santseharay ; Scheel, Troels K.H. ; Carlsen, Thomas H.R. ; Bukh, Jens. / Efficacy of NS5A Inhibitors Against Hepatitis C Virus Genotypes 1–7 and Escape Variants. I: Gastroenterology. 2018 ; Bind 154, Nr. 5. s. 1435-1448.

Bibtex

@article{ffc34e24ce46472e84964913fb793506,
title = "Efficacy of NS5A Inhibitors Against Hepatitis C Virus Genotypes 1–7 and Escape Variants",
abstract = "Background & Aims: Inhibitors of the hepatitis C virus (HCV) NS5A protein are a key component of effective treatment regimens, but the genetic heterogeneity of HCV has limited the efficacy of these agents and mutations lead to resistance. We directly compared the efficacy of all clinically relevant NS5A inhibitors against HCV genotype 1–7 prototype isolates and resistant escape variants, and investigated the effects of pre-existing resistance-associated substitutions (RAS) on HCV escape from treatment. Methods: We measured the efficacy of different concentrations of daclatasvir, ledipasvir, ombitasvir, elbasvir, ruzasvir, velpatasvir, and pibrentasvir in cultured cells infected with HCV recombinants expressing genotype 1–7 NS5A proteins with or without RAS. We engineered HCV variants that included RAS identified in escape experiments, using recombinants with or without T/Y93H and daclatasvir, or that contained RAS previously reported from patients. Results: NS5A inhibitors had varying levels of efficacy against original and resistant viruses. Only velpatasvir and pibrentasvir had uniform high activity against all HCV genotypes tested. RAS hotspots in NS5A were found at amino acids 28, 30, 31, and 93. Engineered escape variants had high levels of fitness. Pibrentasvir had the highest level of efficacy against variants; viruses with RAS at amino acids 28, 30, or 31 had no apparent resistance to pibrentasvir, and HCV with RAS at amino acid 93 had a low level of resistance to this drug. However, specific combinations of RAS and deletion of amino acid 32 led to significant resistance to pibrentasvir. For the remaining NS5A inhibitors tested, RAS at amino acids 28 and 93 led to high levels of resistance. Among these inhibitors, velpatasvir was more effective against variants with RAS at amino acid 30 and some variants with RAS at amino acid 31 than the other agents. Variants with the pre-existing RAS T/Y93H acquired additional NS5A changes during escape experiments, resulting in HCV variants with specific combinations of RAS, showing high fitness and high resistance. Conclusions: We performed a comprehensive comparison of the efficacy of the 7 clinically relevant inhibitors of HCV NS5A and identified variants associated with resistance to each agent. These findings could improve treatment of patients with HCV infection.",
keywords = "DAA, Direct Acting Antiviral, Drug Resistance, Liver Disease",
author = "Gottwein, {Judith M.} and Pham, {Long V.} and Mikkelsen, {Lotte S.} and Lubna Ghanem and Santseharay Ramirez and Scheel, {Troels K.H.} and Carlsen, {Thomas H.R.} and Jens Bukh",
year = "2018",
month = apr,
doi = "10.1053/j.gastro.2017.12.015",
language = "English",
volume = "154",
pages = "1435--1448",
journal = "Gastroenterology",
issn = "0016-5085",
publisher = "Elsevier",
number = "5",

}

RIS

TY - JOUR

T1 - Efficacy of NS5A Inhibitors Against Hepatitis C Virus Genotypes 1–7 and Escape Variants

AU - Gottwein, Judith M.

AU - Pham, Long V.

AU - Mikkelsen, Lotte S.

AU - Ghanem, Lubna

AU - Ramirez, Santseharay

AU - Scheel, Troels K.H.

AU - Carlsen, Thomas H.R.

AU - Bukh, Jens

PY - 2018/4

Y1 - 2018/4

N2 - Background & Aims: Inhibitors of the hepatitis C virus (HCV) NS5A protein are a key component of effective treatment regimens, but the genetic heterogeneity of HCV has limited the efficacy of these agents and mutations lead to resistance. We directly compared the efficacy of all clinically relevant NS5A inhibitors against HCV genotype 1–7 prototype isolates and resistant escape variants, and investigated the effects of pre-existing resistance-associated substitutions (RAS) on HCV escape from treatment. Methods: We measured the efficacy of different concentrations of daclatasvir, ledipasvir, ombitasvir, elbasvir, ruzasvir, velpatasvir, and pibrentasvir in cultured cells infected with HCV recombinants expressing genotype 1–7 NS5A proteins with or without RAS. We engineered HCV variants that included RAS identified in escape experiments, using recombinants with or without T/Y93H and daclatasvir, or that contained RAS previously reported from patients. Results: NS5A inhibitors had varying levels of efficacy against original and resistant viruses. Only velpatasvir and pibrentasvir had uniform high activity against all HCV genotypes tested. RAS hotspots in NS5A were found at amino acids 28, 30, 31, and 93. Engineered escape variants had high levels of fitness. Pibrentasvir had the highest level of efficacy against variants; viruses with RAS at amino acids 28, 30, or 31 had no apparent resistance to pibrentasvir, and HCV with RAS at amino acid 93 had a low level of resistance to this drug. However, specific combinations of RAS and deletion of amino acid 32 led to significant resistance to pibrentasvir. For the remaining NS5A inhibitors tested, RAS at amino acids 28 and 93 led to high levels of resistance. Among these inhibitors, velpatasvir was more effective against variants with RAS at amino acid 30 and some variants with RAS at amino acid 31 than the other agents. Variants with the pre-existing RAS T/Y93H acquired additional NS5A changes during escape experiments, resulting in HCV variants with specific combinations of RAS, showing high fitness and high resistance. Conclusions: We performed a comprehensive comparison of the efficacy of the 7 clinically relevant inhibitors of HCV NS5A and identified variants associated with resistance to each agent. These findings could improve treatment of patients with HCV infection.

AB - Background & Aims: Inhibitors of the hepatitis C virus (HCV) NS5A protein are a key component of effective treatment regimens, but the genetic heterogeneity of HCV has limited the efficacy of these agents and mutations lead to resistance. We directly compared the efficacy of all clinically relevant NS5A inhibitors against HCV genotype 1–7 prototype isolates and resistant escape variants, and investigated the effects of pre-existing resistance-associated substitutions (RAS) on HCV escape from treatment. Methods: We measured the efficacy of different concentrations of daclatasvir, ledipasvir, ombitasvir, elbasvir, ruzasvir, velpatasvir, and pibrentasvir in cultured cells infected with HCV recombinants expressing genotype 1–7 NS5A proteins with or without RAS. We engineered HCV variants that included RAS identified in escape experiments, using recombinants with or without T/Y93H and daclatasvir, or that contained RAS previously reported from patients. Results: NS5A inhibitors had varying levels of efficacy against original and resistant viruses. Only velpatasvir and pibrentasvir had uniform high activity against all HCV genotypes tested. RAS hotspots in NS5A were found at amino acids 28, 30, 31, and 93. Engineered escape variants had high levels of fitness. Pibrentasvir had the highest level of efficacy against variants; viruses with RAS at amino acids 28, 30, or 31 had no apparent resistance to pibrentasvir, and HCV with RAS at amino acid 93 had a low level of resistance to this drug. However, specific combinations of RAS and deletion of amino acid 32 led to significant resistance to pibrentasvir. For the remaining NS5A inhibitors tested, RAS at amino acids 28 and 93 led to high levels of resistance. Among these inhibitors, velpatasvir was more effective against variants with RAS at amino acid 30 and some variants with RAS at amino acid 31 than the other agents. Variants with the pre-existing RAS T/Y93H acquired additional NS5A changes during escape experiments, resulting in HCV variants with specific combinations of RAS, showing high fitness and high resistance. Conclusions: We performed a comprehensive comparison of the efficacy of the 7 clinically relevant inhibitors of HCV NS5A and identified variants associated with resistance to each agent. These findings could improve treatment of patients with HCV infection.

KW - DAA

KW - Direct Acting Antiviral

KW - Drug Resistance

KW - Liver Disease

U2 - 10.1053/j.gastro.2017.12.015

DO - 10.1053/j.gastro.2017.12.015

M3 - Journal article

C2 - 29274866

AN - SCOPUS:85044602958

VL - 154

SP - 1435

EP - 1448

JO - Gastroenterology

JF - Gastroenterology

SN - 0016-5085

IS - 5

ER -

ID: 195252958